VaR & CaR¶
Why do we need to measure financial risk?¶
- Creditworthiness \(\implies\) ability to conduct business
- Customers are their creditors (e.g. bank, insurance company, investment bank)
- Such firms are highly leveraged
- Credit risk cannot be diversified nor can it be hedged.
- \(\implies\) Customers are sensitive to this risk
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- Their attitude to creditor risk differs from investors' in cap markets.
- The more business (=loans/credit) a financial firm has for a given amount of capital (Owner's equity). The greater the leverage. Also understand that some assets and securities are marked to market. #doubt
- Any adverse shock can quickly wipe off its capital. Thus
Value at Risk (VaR)¶
Definition¶
VaR asks us
"What loss level is, \(\ni\) we are \(X\%\) confident that it will not be exceeded [by any other loss level] in \(N\) business days?"
For a \(99\%\) VaR, we are looking for a loss level \(L\) such that
- VaR = loss level
- will not be exceeded
- with a specified probability
- in a specified period
- It captures an important aspect of risk in a single number
Expected Shortfall¶
The expected loss, given that the loss > VaR
Say, it did exceed VaR then, by how much?
ES answers the question
"If things doo get bad, just how bad will they be?"
Evaluation of VaR¶
Summary
- Pros
- Single measure of capital adequacy (vs bankruptcy)
- Comparison and aggregation
- Decomposition of risk (risk budgeting)
- No distributional assumptions
- Cons
- Not a general measure of risk
- Tail behavior unexplained
- Might fail to respect benefits of diversification
Pros¶
VaR is the single most popular measure of market risk of portfolios, for gauging CAPITAL ADEQUACY.
1. VaR provides a summary picture of capital adequacy¶
Quantifies in probabilities manner, how safe the firm is from events leading to bankruptcy.
E.g. If equity capital is \(\$10M\) and 95% one year VaR is \(\$12M\) \(\implies\) There is a 5\% chance of losing more money than its capital
2. Facilitates comparison & enables aggregation¶
- Comparison
- Across portfolios
- Across Markets
- Aggregation across business units
E.g. Calculate VaR for \(X_{1}\) and \(X_{2}\) to compare
3. Facilitates decomposition of risk¶
As it is an aggregate forward looking1 measure, it enables decomposition of risk into sources
- asset class
- manager or risk factor
This decomposition helps in reallocation of assets, setting limits or monitoring allocations and portfolio managers. \(\implies\) Risk Budgeting.
4. Simply involves the point-in-tail identification¶
- beyond which a mass of distribution (say 5%) lies.
- Doesn't make any distributional assumptions concerning returns (we can choose our own). Continuous/Discrete can be used.
This simplicity has led to widespread use of VaR as a measure of risk.
Limitations¶
1. Solely a measure of downside risk¶
Downside risk = losses in the left tail of returns distribution.
- Doesn't pay attention to the shape of the return distribution outside this tail.
- Thus, should NOT be treated as a general measure of portfolio risk.
VaR should not be treated as a general measure of portfolio risk
Both the distributions have the same 99% VaR, i.e. -10. But Distribution 1 is clearly more risky!
| Distribution 1 | Distribution 2 | |
|---|---|---|
| Outcome | Prob | Prob |
| -10 | 0.02 | 0.02 |
| 0 | 0.90 | 0.08 |
| +10 | 0.08 | 0.90 |
2. Tail-behavior of returns unexplained¶
VaR doesn't say much about how returns behavior in the left tail itself.
Two distributions can have different left tails yet same VaRs
95% VaR for both distributions is -10. But (1) has more tail risk than (2).
| Distribution 1 | Distribution 2 | |
|---|---|---|
| Outcome | Probability | Probability |
| - 50 | 0.025 | 0.000 |
| - 10 | 0.035 | 0.06 |
| +10 | 0.940 | 0.940 |
3. Might fail to respect benefits of diversification.¶
A distributions VaR could go up even when it becomes more diversified and intuitively less risky, an undesirable feature in a risk measure.
Hence, use and interpret VaR with care. It is only indicative and not comprehensive.
Historical Simulation to Calculate One-Day VaR or ES¶
- Create database of daily moments in all market variables
- Perform simulations! We are simulating the prices of tomorrow. Since we collected 501 days of historical data (\(\text{Day 1}\to\text{Day 500}\)) we can perform 500 simulations for what the prices tomorrow are going to be. Let's see what each simulation would look like
- First simulation trial (Using \(0\to 1\) days' movements)
- Assume all \% changes in all market variable are as on the first day.
- Second simulation trial (Using \(1\to 2\) days' movements)
- Assume all \% changes in all market variables are as on the second day
- and so on… so \(i\)-th trial assumes: Value of the market variable tomorrow. \(\hat{v}_{501} = v_{500} \dfrac{v_{i}}{v_{i-1}}\). Assuming, \(v_{500}\) is the price of the variable today, and we are trying to estimate \(\hat{v}_{501}\).
- First simulation trial (Using \(0\to 1\) days' movements)
Example¶
- Wish to calculate 1-day, 99% VaR or ES for Portfolio on July 8, 2020
- We have four return Indices (S&P 500, FTSE 100, CAC 40, Nikkei 225) and their prices today (July 7, 2020)
Steps
- Collect historical data (Day 0 to day 500)
- Perform 100 simulations with \(v_{500} \times \dfrac{v_{i}}{v_{i-1}}\)
- Sort all the losses in various scenarios.
- We want the 99% VaR \(\implies\) Take the fifth worst loss (out of 500, which will be 99th percentile)
- We want the 99% one day ES \(\implies\) Take the average of the five worst losses.
Cash Flow at Risk (CaR)¶
Cash Flow Shortfall = \(E(\text{Cash Flow}) -\text{Actual CF}\)
Cash Flow at Risk (CaR) at \(p\%\) is cash-flow shortfall \(\ni\) there is a probability of \(p\%\) that the firm will have a larger cash flow shortfall.
CaR Example
If the \(E(CF) = \$80\) and forecasted volatility2 = \(\$50\) then.
- CaR at 5% \(= -1.65 \times 50 = -82.5\)
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NOTE that here we are only looking at the \(z_{0.05}\times \sigma\) value since it is the shortfall and not the value we are expecting.
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\(v_{i}:\) Value of variable on day \(i\)
- There are 500 simulation trial